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Material metallic

AH metals come originally from natural deposits present in the earth s cmst. These ore deposits result from a geological concentration process, and consist mainly of metallic oxides and sulfides from which metals can be extracted. Seawater and brines are another natural source of metals, eg, magnesium (see Chemicals frombrine Magnesium and magnesium alloys Ocean raw materials). Metal extracted from a natural source is called primary metal. [Pg.162]

Advanced Structural and Heating Materials. Molybdenum siHcide [12136-78-6] and composites of MoSi2 and siHcon carbide, SiC, have properties that allow use as high temperature stmctural materials that are stable in oxidizing environments (see Composite materials Metal-matrix composites). Molybdenum disiHcide also finds use in resistance heating elements (87,88). [Pg.477]

In appUcations in which electrical conductivity is required, metals, copper, tungsten, molybdenum, and Kovar [12606-16-5] are the preferred chip-carrier materials. Metals have exceUent thermal conductivities. Tables 2 and 3 Ust the various materials used for substrates, along with their mechanical, electrical, and thermal properties. [Pg.526]

Filter Press The filter press, one of the most frequently used filters in the early years or the chemical industry, is still widely employed. Often referred to genetically (in error) as the plate-and-frame filter, it has probably over 100 design variations. Two basic popular designs are the flush-plate, or plate-and-frame, design and the recessed-plate press. Both are available in a wide range of materials metals, coated metals, plastics, or wood. [Pg.1709]

Internal surfaces of the pump show severe wastage (Fig. 17.13). The wasted region is free of corrosion products except for a small amount of soft, black material. Metal loss in this area was as deep as V2 in. (1.3 cm). The reddish coating partially covering the smooth area above the wasted zone in Fig. 17.13 was applied to mitigate corrosion. Where this coating is... [Pg.384]

This book has been written as a second-level course for engineering students. It provides a concise introduction to the microstructures and processing of materials (metals, ceramics, polymers and composites) and shows how these are related to the properties required in engineering design. It is designed to follow on from our first-level text on the properties and applications of engineering materials," but it is completely self-contained and can be used by itself. [Pg.392]

Gasket materials Metal jacketed or solid metal for (a) internal floating head cover. (b) 300 psi and up. (c) all hydrocarbons. Metal jacketed or solid metal (a) internal floating head. (b) 300 psi and up. Asbestos permitted for 300 psi and lower pressures. (same as TEMA C)... [Pg.24]

XPS has been used in almost every area in which the properties of surfaces are important. The most prominent areas can be deduced from conferences on surface analysis, especially from ECASIA, which is held every two years. These areas are adhesion, biomaterials, catalysis, ceramics and glasses, corrosion, environmental problems, magnetic materials, metals, micro- and optoelectronics, nanomaterials, polymers and composite materials, superconductors, thin films and coatings, and tribology and wear. The contributions to these conferences are also representative of actual surface-analytical problems and studies [2.33 a,b]. A few examples from the areas mentioned above are given below more comprehensive discussions of the applications of XPS are given elsewhere [1.1,1.3-1.9, 2.34—2.39]. [Pg.23]

As already remarked in Sect. 4.5.1 (Introduction), LA was primarily designed as a technique for direct sampling in the bulk analysis of solid samples. The main advantages of LA are the possibility of ablating all types of solid material (metals, isolators, glasses, crystals, minerals ceramics, etc.), no special requirements on the... [Pg.239]

The whole of polymer science is constructed around a battery of concepts which are largely distinct from those familiar in other families of materials, metals in particular. This is the reason why I invited an eminent polymer scientist who was originally a physical metallurgist to write, for a textbook of physical metallurgy edited by me, a chapter under the title A metallurgist s guide to polymers (Windle 1996). The objective was to remove some of the mystery surrounding polymer science in the eyes of other kinds of materials scientists. [Pg.310]

In order to develop measures for removal of debris from the waste matrix, the general types of debris anticipated need to be identified. A composite list, based on debris found at 29 Superfund sites, was developed. The list includes cloth, glass, ferrous materials, nonferrous materials, metal objects, construction debris, electrical devices, wood existing in a number of different forms, rubber, plastic, paper, etc., as presented in Table 11. Similar types of debris would be expected at RCRA sites. [Pg.171]

Chemical Reactivity - Reactivity with Water Anhydrous grade dissolves with evolution of some heat Reactivity with Common Materials Metals slowly corrode in aqueous solutions Stability During Transport Stable Neutralizing Agents for Acids and Caustics Not pertinent Polymerization Not pertinent Inhibitor of Polymerization Not pertinent. [Pg.73]

Curing primarily refers to the process of solidification of polymer matrix materials. Metal matrix materials are simply heated and cooled around fibers to solidify. Ceramic matrix and carbon matrix materials are either vapor deposited, mixed with fibers in a slurry and hardened, or, in the case of carbon, subjected to repeated liquid infiltration followed by carbonization. Thus, we concentrate here on curing of polymers. [Pg.23]

Embedment in, or contact with, various building materials Metal components may be embedded in various building mortars, plasters, concrete or floor compositions, or else may be in contact with these. Similarly, they may be in contact with materials such as other metals, wood, etc. [Pg.42]

Non-ferrous Metals and Alloys Diaphragm material, metal composite, refractory metal. [Pg.601]

One of the most direct routes to vinylsilanes uses vinyl halides as starting materials. Metal-halogen exchange, followed by electrophilic attack by TMSC1, can often provide the vinylsilane quickly and in good yield. As an added bonus, vinyl bromides have been shown (10, II) to proceed through this sequence with retention of double-bond stereochemistry. [Pg.101]

The group-IIA elements and their products, especially those containing Ca, Sr or Ba, are reactive this must be remembered when assessing the early literature, since a major proportion of the work was undertaken on impure materials (metal purities of only 98% were not uncommon). [Pg.461]

A wide class of materials (metals, semiconductors, superconductors, biominerals, water-soluble inorganic and organic compounds, etc.) can be produced using these systems [203-206]. [Pg.490]

Mixer material Metal/stainless steel silicon /stainless steel glass Slit-type chamber 4.30 mm 500 pm initial width 150 pm 300 pm focused width depth 2.8 mm, 24 mm focusing length 126.7° expansion width expansion length expansion angle... [Pg.398]

In the first of the four examples, the electrode material (metallic silver) is chemically involved in the electrode reaction hence it becomes more [less] as a function of time. Such electrodes are called reacting [or consumable] electrodes. [Pg.15]

See other pages where Material metallic is mentioned: [Pg.258]    [Pg.55]    [Pg.7]    [Pg.556]    [Pg.27]    [Pg.447]    [Pg.473]    [Pg.19]    [Pg.178]    [Pg.619]    [Pg.114]    [Pg.234]    [Pg.264]    [Pg.282]    [Pg.411]    [Pg.612]    [Pg.1230]    [Pg.3]    [Pg.404]    [Pg.396]    [Pg.395]    [Pg.44]    [Pg.587]    [Pg.711]    [Pg.839]    [Pg.40]    [Pg.202]    [Pg.18]    [Pg.299]   
See also in sourсe #XX -- [ Pg.233 ]



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